JinkoSolar Photovoltaic Module
User Manual (UL1703)
Contents 11
16
1
45556
89
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14
15
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3 Wiring and Connections
4 Maintenance and Care
5 Electrical Specification
6 Disclaimer of Liability
2929
1 General Information1.1 Overview1.2 Warnings
2 Installation
2.1 Installation Safety
2.2 Installation Condition
2.2.1 Climate Condition
2.2.2 Site Selection
2.2.3 Tilt Angle Selection
2.3 Mechanical Installation Introduction
2.3.1 Mounting with Bolts
2.3.2 Mounting with Clamps
2.3.2.1 Clamp Mounting on Long Sides of the Frames
2.3.2.2 Clamp Mounting on Short Sides of the Frames
2.3.2.3 Clamp Mounting on Long & Short Sides
Edition 1 /2019 - L
33Contact us
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18Appendix 1: Applicable Products
Appendix 2: Electrical Specifications
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1. General Information
1.1 Overview
Thanks for choosing Jinko Solar PV modules. In order to ensure the PV modules are installed
correctly, please read the following installation instructions carefully before modules are
installed and used. Please remember that these products generate electricity and certain
safety measures need to be taken to avoid danger. Make sure the module array is
designed in such a way not to exceed the maximum system voltage of any system
component such as connectors or inverters.
This module has a Class C Fire Rating (Canada) or Module Fire performance type 1
(United States of America) and must be installed over a roof which has appropriate fire
resistance. Before mounting the module, please consult your local building department
to determine approved roofing materials. The modules are qualified for application class
A, and modules qualified for safety through UL 1703 within this application class are
considered to meet the requirements of Safety Class II.
The Fire rating is Class C in Canada, but the Module Fire performance is type 1 in
America with the specified construction in below table, when used with a listed mounting
system that has been rated as a Class A System when installed with type 1 modules,
is suitable to maintain the System Class A Fire Rating in America.
Module model Specific construction Marking
Groups1 ~ 16
Superstrate: 3.2 ~ 4.0 mm thick;
EVA: 0.25 ~ 0.8 mm thick;
Substrate: 0.3 mm ~ 0.46 mm thick;
Frame: Types “40mm by 20mm” or “40mm by
35mm” or “700-0218” or 35mm by 35mm
Module Fire Performance:
Type 1
Notes:Groups 1 ~ 16 refer to appendix 1 for details.
1.2 Warnings
PV modules generate DC electrical energy when exposed to sunlight or other light
sources. Active parts of modules such as
terminals can result in burns, sparks and lethal
shock.
Artificially concentrated sunlight shall not be
directed on the module or panel.
Front protective glass is utilized on the module.
Broken solar module glass is an electrical safety
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hazard (may cause electric shock or fire). These modules cannot be repaired and should
be replaced immediately.
To reduce the risk of electrical shocks or burns, modules may be covered with an opaque material during installation to avoid injury.
The fire rating of this module is valid only when mounted in the manner specified in the mechanical mounting instructions.
The module is considered to be in compliance with UL1703 only when the module is mounted in the manner specified by the mounting instructions below.
All installations must be performed in compliance with the National Electrical Code (NEC) and modules installed in Canada need to follow Canadian Electric Code (CEC).
A module with exposed conductive parts is considered to be in compliance with UL1703 only when it is electrically grounded in accordance with the instructions presented below and the requirements of the National Electrical Code.
Any module without a frame (laminate) shall not be considered to comply with the requirements of UL1703 unless the module is mounted with hardware that has been tested and evaluated with the module under this standard or by a field Inspection certifying that the installed module complies with the requirements of UL1703.
The installation work of the PV array can only be done under the protection of sun-sheltering covers or sunshades and only qualified person can install or perform maintenance work on this module.
Follow the battery manufacture’s recommendations, if batteries are used with modules.
Do not use this module to replace or partly replace roofs and walls of living buildings.
Do not install modules where flammable gas may be present.
Do not touch live terminals with bare hands. Use insulated tools for electrical connections.
Do not remove any part installed by Jinko Solar or disassemble the module.
All instructions should be read and understood before attempting to install, wire, operate
and maintain the module.
Don’t lift up PV modules using the attached cables or the junction box.
All PV systems must be grounded to earth. If there is no special regulation, please follow
the National Electrical Code or other national code.
Common hardware items such as nuts, bolts, star washers, lock washers and the like
have not been evaluated for electrical conductivity or for use as grounding devices and
should be used only for maintaining mechanical connections and holding electrical
grounding devices in the proper position for electrical conductivity. Such devices, where
Rev. C
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supplied with the module and evaluated through the requirements in UL 1703, may be
used for grounding connections in accordance with the instructions provided with the
module.
Under normal conditions, a photovoltaic module is likely to experience conditions that
produce more current and/or voltage than reported at standard test conditions. The
requirements of the National Electrical Code (NEC) in Article 690 shall be followed to
address these increased outputs. In installations, not under the requirements of the NEC,
the value of Isc and Voc marked on the module should be multiplied by a factor of 1.25
when determining component voltage ratings, conductor ampacities, overcurrent device
ratings, and size of controls connected to the PV output.
Once the PV module has been shipped to the installation site, all of the parts should be
unpacked properly with care.
Do not stand or step on the PV module like below pictures show. This is prohibited and
there is a risk of damage to the module and cause injury for you.
Only PV modules with the same cell size should be connected in series.
During transporting modules, please attempt to minimize shock or vibration to the module, as this may damage the module or lead to cell micro cracks.
During all transportation situations, never drop the module from a vehicle, house or hands. This will damage the module.
Do not clean the glass with chemicals. Only use tap water. Make sure the module surface temperature is cool to the touch. Cleaning modules with cool water when module surface temp is high may result in glass breakage.
Do not disconnect any of the modules when under load.
The recommended standoff height is 6 inches (15cm). If other mounting means are employed this may affect the UL Listing.
When looking at PV modules with anti-reflection (AR) coating technology, it will be normal to see some cells with a slight color difference at different angles. Modules with LRF(light reflective film) and without LRF should not be built in the same array.
Do not use modules in an environment with aliphatic, aromatic, phenols, ketones, halogenated substance or mineral oil, which may corrode the junction box by chemical attack.
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2. Installation
2.1 Installation Safety
Always wear protective head gear, insulated gloves and safety shoes (with rubber soles).
Keep the PV module packed in the carton until installation.
Do not touch the PV module unnecessarily during installation. The glass surface and the frame may be hot. There is a risk of burns and electric shock.
Do not work in rain, snow or windy conditions.
Due to the risk of electrical shock, do not perform any work if the terminals of the PV module are wet.
Use insulated tools and do not use wet tools.
When installing PV modules, do not drop any objects (e.g., PV modules or tools).
Make sure flammable gases are not generated or present near the installation site.
The modules are equipped with PV wiring connectors that comply with UL 6703, Standard for Connectors for use in Photovoltaic Systems. Connectors from other manufactures should not be mated with each other connectors.
Connector model name Allowable mating connector model name
TL-Cable01F TL-Cable01M
PV-JK00MO PV-JK00MO
UTXCFA4A* UTXCMA4A*
Helios H4 Assembled Helios H4 Assembled
PV-JK03M-1 PV-JK03M-1
PV-KST4/6II-UR PV-KBT4/6II-UR
PV-JK03M-2 PV-JK03M-2
PV-JK03M-F/xy PV-JK03M-M/xy
PV-KBT4-EVO2/6II-UR PV-KST4-EVO2/6II-UR
PV-JK03M-F/2B PV-JK03M-M/2B
Table 1:Allowable mating connector model name
Insert module connectors fully and correctly. An audible "click" sound should be heard.
This sounds confirms the connectors are fully seated. Check all connections.
The module leads should be securely fastened to the module frame. Wire Management
should be done in a way to avoid the connector from scratching or impacting the back
sheet of the module.
Do not touch the junction box and the end of the interconnect cables (connectors) with
bare hands during installation or under sunlight, regardless if the PV module is connected
to or disconnected from the system.
Do not expose the PV module to excessive loads on the surface of the PV module or
twist the frame.
Rev. C
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Do not hit or put excessive load on the glass or back sheet, this may break the cells or cause micro cracks.
During installation or operation, don’t use sharp tools to wipe the back sheet and glass. Scratches can appear on the module.
Do not drill holes in the frame, it may cause corrosion of the frame and void the warranty.
When installing modules on roof mounted structures, please try to follow the “from top to bottom” and/or “from left to right” principle, and don’t step on the module. This will damage the module and would be dangerous for personal safety. For roof mounted applications, the assembly is to be mounted over a fire resistant roof covering rated for the application.
All PV systems must be grounded to earth (Refer to 3.“Wiring and connection” for specific grounded).
2.2 Installation Condition
2.2.1 Climate Condition
Please install the modules in the following conditions:
a) Operating temperature: within –40°C(-40°F) to 85°C (185°F).
b) Humidity: < 85RH%.
﹡Note:
The mechanical load bearing (including wind and snow loads) of the module is based on
the approved mounting methods. The professional system installer must be responsible
for mechanical load calculation according to the system design.
2.2.2 Site Selection
In most applications, Jinko Solar PV modules should be installed in a location where they will
receive maximum sunlight throughout the year. In the Northern Hemisphere, the module
should typically face south, and in the Southern Hemisphere, the modules should typically
face north. Modules facing 30 degrees away from true South (or North) will lose
approximately 10 to 15 percent of their power output. If the module faces 60 degrees away
from true South (or North), the power loss will be 20 to 30 percent.
When choosing a site, avoid trees, buildings or obstructions, which could cast shadows on
the solar photovoltaic modules especially during the winter months when the arc of the sun is
lowest over the horizon. Shading causes loss of output, even though the factory fitted bypass
diodes of the PV module will minimize any such loss.
Do not install the PV module near open flame or flammable materials.
When solar modules are used to charge batteries, the battery must be installed in a manner,
which will protect the performance of the system and the safety of its users. Follow the
battery manufacturer’s guidelines concerning installation, operation and maintenance
recommendations. In general, the battery (or battery bank) should be away from the main
flow of people and animal traffic. Select a battery site that is protected from sunlight, rain,
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snow, debris, and is well ventilated. Most batteries generate hydrogen gas when charging,
which can be explosive. Do not light matches or create sparks near the battery bank. When a
battery is installed outdoors, it should be placed in an insulated and ventilated battery case
specifically designed for the purpose.
Do not install the PV module in a location where it would be immersed in water or continually
exposed to water from a sprinkler or fountain etc.
2.2.3 Tilt Angle Selection
The tilt angle of the PV module is measured between the surface of the PV module and a
horizontal ground surface (Figure 1). The PV module generates maximum output power
when it faces the sun directly.
For standalone systems with batteries where the PV modules are attached to a permanent
structure, the tilt angle of the PV modules should be selected to optimize the performance
based on seasonal load and sunlight. In general, if the PV output is adequate when
irradiance is low (e.g., winter), then the angle chosen should be adequate during the rest of
the year. For grid-connected installations where the PV modules are attached to a permanent
structure, PV modules should be tilted so that the energy production from the PV modules will
be maximized on an annual basis.
Only for UL listed products .The System Fire
Class Rating of the module or panel in a mounting
system in combination with a roof covering should
complete the requirements to achieve the
specified System Fire Class Rating for a non-BIPV
module or panel.
Any module or panel mounting system have
limitations on inclination required to maintain a
specific System Fire Class Rating. Figure1: PV module tilt angle
For bifacial modules, the suggested installation tilt angle and height is 30 degree and 1.2m,
respectively. For different ground cover conditions, like snow, grass, desert, water surface,
cement land and so on, the expectation generation energy gain varied from 4% to 24%,
as shown in figure 2.
i) The reflectivity of snow is 80-85%, generation energy will be increased by 17-24%.
ii) The reflectivity of sand is 22-25%, generation energy will be increased by 7-14%.
iii) The reflectivity of cement is 30-33 %, generation energy will be increased by 6-13%.
iv) The reflectivity of grass is 10-20 %, generation energy will be increased by 6-8 %.
v) The reflectivity of water is 2-5 %, generation energy will be increased by 4-7 %.
Rev. C
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Figure2: PV module installed on different ground covers
2.3 Mechanical Installation Introduction
Solar PV modules usually can be mounted by using the following methods: bolts and clamps.
﹡Note:
(1) All installation methods herein are only for reference, and Jinko Solar will not provide related mounting components. The system installer or trained professional personnel must be responsible for the PV system’s design, installation, and mechanical load calculation and security of the system.
(2) Before installation, the following items should be addressed:
1) Visually check the module for any damage. Clean the module if any dirt or residue remains from shipping.
2) Check if module serial number stickers match.
3) The minimum distance between modules should be more than 10mm for all installation methods.
(3) The mounting with bolts and/or clamps on the long side of the frames could meet a
maximum positive testing (downward) pressure of 5400Pa and negative testing (upward) pressure of 2400Pa. The mounting with clamps on the short side of the frames could meet a positive testing (downward) pressure and negative testing (upward) pressure of 1600Pa. The mounting of clamps on the long & short sides of frames could meet a positive testing (downward) pressure and negative testing (upward) pressure of 2400Pa. with a 1.5 times safety factor.
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When mounting modules in snow-prone or high-wind environments, special care should be taken to mount the modules in a manner that provides sufficient design strength while meeting local code requirements.
(4) Where common grounding hardware (nuts, bolts, star washers, spilt-ring lock washers,
flat washers and the like) is used to attach a listed grounding/bonding device, the
attachment must be made in conformance with the grounding device manufacturer's
instructions.
(5) Common hardware items such as nuts, bolts, star washers, lock washers and the like
have not been evaluated for electrical conductivity or for use as grounding devices and
should be used only for maintaining mechanical connections and holding electrical
grounding devices in the proper position for electrical conductivity. Such devices, where
supplied with the module and evaluated through the requirements in UL1703, may be
used for grounding connections in accordance with the instructions provided with the
module.
(6) The use of third party grounding device is not allowed unless the grounding device is
UL2703 certified with Jinko modules. The installation of that grounding hardware must
follow the grounding manufacture’s installation manual.
(7) The clearance between the module and the roof deck should be a minimum of 6 inches
(15mm).
2.3.1 Mounting with Bolts
The frame of each module has 8 or 12 mounting holes used to secure the module to thesupport structure. The module frame must be attached to a mounting rail using M8
corrosion-proof bolts together with spring washers and flat washers in eight symmetrical
locations on the PV module. The applied torque value should be big enough to fix the
modules steadily. The torque value for a M8 bolt is 16~20 N*m. For special racking systemsor special installation requirements, please reconfirm with the supplier for the appropriate torque value. Please find detailed mounting information in figure 3. The installation
instructions shall specify that the modules have been evaluated by UL for bolt mounting
using the 8 provided mounting holes in the frame with a torque of 16~20 N*m. The following
M8 stainless steel mounting hardware should be included in the installation instructions:
For eight 14x9 holes and four 10x7 holes(Red label for mounting hole), mounting hardware
is shown below in Table 2:
Module
Mounting hardware configuration Max. Pressure
Hardware Material Size(holes) Number
provided
5400Pa
(positive)
& 2400Pa
(negative)
mechanical load
14x9 10x7
Group
1 ~ 16
Bolt Stainless steel M8 M6 8/12
Spring washer Stainless steel M8 M6 8/12
Nut Stainless steel M8 M6 8/12
Rev. C
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Table 2:The mounting part for eight mounting holes
*Alternate Mounting Method – bolt mounting method using the 12 provided mounting
holes in the frame with a torque of 16~20 N*m. The following stainless steel mounting hardware should be included in the installation instructions.
Figure 3: PV module installed with Bolt fitting method
2.3.2 Mounting with Clamps
The module clamps should not come into contact with the front glass and must not deform
the frame. Be sure to avoid shading effects from the module clamps. The module frame is
not to be modified under any circumstances. When choosing this type of mounting
method, please be sure to use at least four clamps on each module, two clamps should be
attached on each long side of the module. The applied torque value should be big enough to
mount the modules steadily (Please consult with the clamp or racking supplier for the
specific torque value). Please find detailed mounting information in the below
illustration. The mounting zone is greater than J and less than K. Figure 4 shows how a clamp should be mounted to the module frame.
When installing modules using clamps on the long side of the frame, the applicable product
types and installation locations are shown in figure 5 and table 4.
When installing modules using clamps on the short side of the frame, the applicable product
types and installation locations are shown in figure 6 and table 5.
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When installing modules using clamps on the long side & short side of the frame, the
applicable product types and installation locations are shown in figure 7 and table 6.
Figure 4: PV module installed at the side with Clamp fitting method
Clamp type Dimension (mm) Composition material
End Clamp (40mm thickness) 39x50x42
39x60x42 (For 1.5mm thickness frame)
Aluminum-alloy
End Clamp (35mm thickness) 41.5x50x40
Middle Clamp
42x50x28
42x60x28 (For 1.5mm thickness frame)
Q O R P
13.5 0.5 ~ 2 15 2.5
Table 3: Mechanical dimensions, specification and material when modules installed with mid clamps
Rev. C
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2.3.2.1 Clamp Mounting on Long Sides of the Frames
Module type
Dimension (mm)
Max. Test Pressure: 5400Pa (positive) & 2400Pa (negative)
mechanical loadA*B J K
Group 2 1665*992 & 1684*1002 400 420
Group 5 1987*992 & 2000*992 &
2008*1002 400 480
Group 8 1665*992 & 1684*1002 400 420
Group 11 1987*992 & 2000*992 &
2008*1002 400 480
Group 1/Group 3 1650*992 & 1665*1002 400 420
Group 4/Group 6 1956*992 & 1979*1002 400 480
Group 7/Group 9 1650*992 & 1665*1002 400 420
Group10/Group 12 1956*992 & 1979*1002 400 480
Group13/Group 15 2031*1008 280 420
Group14/Group 16 1704*1008 280 420
Table 4: Mechanical dimensions of modules installed with clamps on long side of frame
2.3.2.2 Clamp Mounting on Short Sides of the Frames
Module type
Dimension (mm)
Max. Test Pressure: 1600Pa (positive) &1600Pa (negative)
mechanical load A*B J K
Group 2 1665*992 & 1684*1002 50 240
Group 8 1665*992 & 1684*1002 50 240
Group 11 1987*992 & 2000*992 &
2008*1002 50 240
Group 5 1987*992 & 2000*992 &
2008*1002 50 240
Group 1 Group 3 1650*992 & 1665*1002 50 240
Group 7 Group 9 1650*992 &1665*1002 50 240
Group 4 Group 6 1956*992 & 1979*1002 50 240
Group 10/Group 12 1956*992 & 1979*1002 50 240
Group13/Group 15 2031*1008 50 240
Group14/Group 16 1704*1008 50 240
Table 5:Mechanical dimensions of modulesinstalled with clamps on short side of frame
Figure 5: Installation of clamps on long side of frames
Figure 6: Installation of clamps on short side of frames
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2.3.2.3 Clamp Mounting on Long & Short Sides
Table 6: Mechanical dimensions of modules installed with clamps on long & short side of frame
Note:
The installation method of clamps on short sides is based on the internal results in Jinko, not
evaluated by UL.
The installation method of clamps on long and short sides is based on the internal results in
Jinko, not evaluated by UL.
3. Wiring and Connection
a) Before this procedure, please read the operation instructions of the PV system carefully. Connect the PV module connections in series or parallel, which is determined by the user‟s configuration requirement for system power, current and voltage.
b) PV modules connected in series should have similar current, and modules must not be connected together to create a voltage higher than the permitted system voltage. The maximum number of modules in series depends on system design, the type of inverter and environmental conditions.
Module
type
Dimension (mm)
Max. Test Pressure: 2400Pa (positive) &
2400Pa (negative)
mechanical load A*B J K M N
Group 1
Group 3 1650*992 & 1665*1002 50 240 400 420
Group 7
Group 9 1650*992 &1665*1002 50 240 400 420
Group 4
Group 6 1956*992 & 1979*1002 50 240 400 480
Group 10
Group 12 1956*992 & 1979*1002 50 240 400 480
Group 2 1665*992 & 1684*1002 50 240 400 420
Group 5 1665*992 & 1684*1002 50 240 400 420
Group 8 1987*992 & 2000*992
& 2008*1002 50 240 400 480
Group 11 1987*992 & 2000*992
& 2008*1002 50 240 400 480
Group13
Group 15 2031*1008 50 240 400 480
Group14
Group 16 1704*1008 50 240 400 480
Figure 7: Installation of clamps on long & short side of frame
Rev. C
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c) The maximum fuse rating value in an array string can be found on the product label or inthe product data sheet. The fuse rating value is also corresponding to the maximumreverse current that a module can withstand, i.e. when one string shaded then the otherparallel strings of modules will be loaded by the shaded string and the current will passthrough to create a current circuit. Based on the maximum series fuse rating of the moduleand local electrical codes and standards, make sure the modules strings in parallel areprotected with the appropriate in-line string fusing.
d) Connect the conductors from the PV array to the combiner box in accordance with the
design and local codes and standards. The cross-sectional area and cable connector
capacity must satisfy the maximum short-circuit of the PV system (for a single component,
it is recommended the cross-sectional area of cables be 4mm2 and the rated current of
connectors be more than 10A, otherwise cables and connectors will become overheated
from high current. Please note the temperature limit of the cables is 85℃.
e) Jinko modules can be grounded using bolts. Attach the equipment grounding conductor to
the module frame using the hole and hardware provided. Note that a stainless steel bolt is
used between the ground wire and module frame as illustrated in following figure. A
washer is used to avoid corrosion due to dissimilar metals. Tighten the screw securely. It
is recommended that the applied torque is 1.7~2.0 ft-lbs (2.3 to 2.8 N*m).
Module Mounting hardware configuration
Hardware Material Size Number provided
Bolt Stainless steel M4 2
Spring washer Stainless steel M4 2
Nut Stainless steel M4 2
Star washer Stainless steel M4 2
Plain washer Stainless steel M4 4
Table 7:The mounting part of the ground mounting hole
Figure 8: Ground installation of PV modules
Group
1 ~ 16
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The use of bolt grounding device is not allowed unless the grounding device is UL1703 or
UL2703 certified with Jinko modules. Alternate grounding options built into the racking
system are acceptable as long as they have been UL approved.
Model series Grounding Clip
Manufacturer Type
Group 1 ~ 16 Tyco Electronics Corp 1954381-1
Table 8:The ground mounting Clip of PV modules
f) The following UL Listed Ground Clamp in combination with the following model number PV
modules can be used. Other third party grounding method can’t be used unless the
grounding device is UL2703 certified with Jinko modules.
g) Follow the requirements of applicable local and national electrical codes.
h) These modules contain factory installed bypass diode. If these modules are incorrectlyconnected to each other, the bypass diodes, cable or junction box may be damaged.
i) The module shall be wired in accordance with the NEC, the grounding method of theframe of arrays shall comply with the NEC, article 250
j) CNL models shall be in accordance with CSA C22.1, Safety Standard for
Electrical Installations, Canadian Electrical Code, Part 1.
k) It is recommended that the M8 bolt be tightened to a torque of about 16 ~ 20 N*m .
l) The cable of the junction box is defined as L1, as showed below. For Jinko standard
module, L1 is 900/1200mm; and for customized module, L1 can be based on your
condition, take the cable length into consideration before designing the wiring layout.m) Jinko Solar requires the negative grounding of the inverter when a system is installed
with standard (non-Eagle line) PV solar modules. Alternatively, a "charge-equalizing‟device may be used to mitigate the effects of the Potential Induced Degradation (PID)phenomenon that can occur in specific environments that the array is installed in.
Figure 10: Junction box
4. Maintenance and Care
a) A build up of dust or dirt on the module(s) front glass will result in decreased energyoutput. Clean the module(s) preferably once annually if possible (depending on siteconditions) using a soft dry or damp cloth, as necessary.
b) Never use abrasive material under any circumstances.
Rev. C
c) Examine the PV module(s) for signs of deterioration. Check all wiring for possible rodent
damage, weathering and that all connections are tight and corrosion free. Check electrical
leakage to ground.
d) Check screws/bolts and mounting brackets are tight, adjust and tighten as necessary.e) Check the junction box and diodes as well. If you have any diodes problem, please contact
Jinko Solar.
f) When cleaning the modules, it is not allowed to stand on the module.
g) Never use chemicals when cleaning modules as this may affect the module warranty and
energy output.
5. Electrical Specification
The module electrical ratings are measured under Standard Test Conditions, which are
1000W/m2, irradiance with AM 1.5 spectrum and 25 deg C (77°F) ambient temperature. The module might produce more or less voltage or current than rated value in
uncertainty condition. Tables below are electrical characteristics of PV products at STC and
the tolerance of Isc, Voc, Vmp and Imp is ±10%.
6. Disclaimer of Liability
Because the use of the manual and the conditions or methods of installation, operation, use
and maintenance of photovoltaic (PV) product are beyond Jinko’s control, Jinko does not
accept responsibility and expressly disclaims liability for loss, damage, or expense arising out
of or in any way connected with such installation, operation, use or maintenance.
No responsibility is assumed by Jinko for any infringement of patents or other rights of third
parties, which may result from use of the PV product. NO license is granted by implication or
otherwise under any patent or patent rights.
The information in this manual is based on Jinko’s knowledge and experience and is believed
to be reliable, but such information including product specification (without limitations) and
suggestions do not constitute a warranty, expresses or implied. Jinko reserves the right to
change the installation manual, the PV product, the electrical specifications, or product
information sheets without prior notice.
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Appendix 1: Applicable Products
This document is applicable to the series of solar modules as listed below:
Group 1
JKMxxxP-60 JKMxxxP-60B① JKMxxxP-60-J4② JKMxxxP-60B-J4
JKMxxxPP-60③ JKMxxxPP-60B JKMxxxPP-60(Plus)④ JKMxxxPP-60-J4
JKMxxxPP-60B-J4 JKMxxxPP-60-W⑤ JKMxxxPP-60B-W JKMxxxPP-60B-V
JKMxxxP-60-V⑥ JKMxxxPP-60-V JKMxxxPP-60-V(Plus) JKMxxxPP-60-WV
(xxx=200~300, in increment of 5)
Group 2
JKMxxxPP-60H⑦ JKMxxxPP-60H-J4 JKMxxxPP-60HB
JKMxxxPP-60H-V JKMxxxPP-60H-J4-V JKMxxxPP-60HB-V JKMxxxPP-60H-V
(xxx =200~310, in increment of 5)
Group 3
JKMS⑧xxxP-60 JKMSxxxP-60-J4 JKMSxxxP-60B JKMSxxxP-60B-J4
JKMSxxxPP-60 JKMSxxxPP-60-J4 JKMSxxxPP-60B-J4 JKMSxxxPP-60B
JKMSxxxPP-60-W JKMSxxxPP-60B-W
(xxx =200~275, in increment of 5)
Group 4
JKMxxxP-72 JKMxxxP-72B JKMxxxP-72-J4 JKMxxxP-72B-J4
JKMxxxPP-72 JKMxxxPP-72B JKMxxxPP-72(Plus) JKMxxxPP-72-J4
JKMxxxPP-72B-J4 JKMxxxPP-72-W JKMxxxPP-72B-W JKMxxxPP-72B-V
JKMxxxP-72-V JKMxxxPP-72-V JKMxxxPP-72-V(Plus) JKMxxxPP-72-WV
(xxx =250~360, in increment of 5)
Group 5
JKMxxxPP-72H JKMxxxPP-72H-J4 JKMxxxPP-72HB
JKMxxxPP-72H-V JKMxxxPP-72H-J4-V JKMxxxPP-72HB-V
(xxx =250~370, in increment of 5)
Group 6
JKMSxxxP-72 JKMSxxxP-72-J4 JKMSxxxP-72B-J4 JKMSxxxP-72B
JKMSxxxPP-72 JKMSxxxPP-72-J4 JKMSxxxPP-72B-J4 JKMSxxxPP-72B
JKMSxxxPP-72-W JKMSxxxPP-72B-W
(xxx =250~330, in increment of 5)
Group 7
JKMxxxM-60 JKMxxxM-60B JKMxxxM-60-J4 JKMxxxM-60B-J4
JKMxxxM-60-W JKMxxxM-60B-W
JKMxxxM-60-V JKMxxxM-60-W-V JKMxxxM-60B-V
(xxx =200~330, in increment of 5)
JKMxxxM-60L⑨ JKMxxxM-60BL JKMxxxM-60L-V JKMxxxM-60BL-V
(xxx =300~330, in increment of 5)
Rev. C
- 17 -
Group 8
JKMxxxM-60H JKMxxxM-60HB JKMxxxM-60H-V JKMxxxM-60HB-V
(xxx =200~340, in increment of 5)
JKMxxxM-60HL JKMxxxM-60HBL JKMxxxM-60HL-V JKMxxxM-60HBL-V
(xxx =300~340, in increment of 5)
Group 9
JKMSxxxM-60 JKMSxxxM-60-J4 JKMSxxxM-60-W
(xxx =200~295, in increment of 5)
Group 10
JKMxxxM-72 JKMxxxM-72B JKMxxxM-72-J4 JKMxxxM-72B-J4
JKMxxxM-72-W JKMxxxM-72B-W
JKMxxxM-72-V JKMxxxM-72-W-V JKMxxxM-72B-V
(xxx =250~400, in increment of 5)
JKMxxxM-72L JKMxxxM-72L-V JKMxxxM-72BL JKMxxxM-72BL-V
(xxx =370~400, in increment of 5)
Group 11
JKMxxxM-72H JKMxxxM-72HB JKMxxxM-72H-V JKMxxxM-72HB-V
(xxx =250~410, in increment of 5)
JKMxxxM-72HL JKMxxxM-72HL-V JKMxxxM-72HBL JKMxxxM-72HBL-V
(xxx =370~410, in increment of 5)
Group 12
JKMSxxxM-72 JKMSxxxM-72-J4 JKMSxxxM-72-W
(xxx =250~355, in increment of 5)
Group 13
JKMxxxM-72HL-TV
(xxx =375~420, in increment of 5)
JKMBxxxM-72HL-TV
(xxx =410~455, in increment of 5)
Group 14
JKMxxxM-60HL-TV
(xxx =315~350, in increment of 5)
JKMBxxxM-60HL-TV
(xxx =345~380, in increment of 5)
Group 15
JKMxxxN-72HL-TV
(xxx =375~400, in increment of 5)
JKMBxxxN-72HL-TV
(xxx =420~445, in increment of 5)
Group 16
JKMxxxN-60HL-TV
(xxx =315~330, in increment of 5)
- 18 -
JKMBxxxN-60HL-TV
(xxx =350~365, in increment of 5)
Notes:
B: module with black back sheet
J4: the eagle black series module
PP: the eagle series module
Plus: the eagle+ series module
W: module with metal support bar
V: module with 1500V
H: half-cut series module
JKMS: the smart module
L:large cell series module
TV: SWAN bifacial module
Appendix 2: Electrical Specifications
Module Type Group 1 and Group 2 Group 2
xxx = 255 260 265 270 275 280 285 290 295 300 305 310
Maximum Power at
STC (Pmax, Wp) 255 260 265 270 275 280 285 290 295 300 305 310
Maximum Power
Voltage (Vmp, V) 30.8 31.1 31.4 31.7 32.0 32.3 32.5 32.8 33.1 33.4 33.6 33.9
Maximum Power
Current (Imp, A) 8.28 8.37 8.44 8.52 8.61 8.69 8.77 8.86 8.95 9.03 9.11 9.19
Open-circuit Voltage
(Voc, V) 38.0 38.1 38.6 38.8 39.1 39.4 39.6 39.8 40.1 40.3 40.6 40.8
Module Type Group 1 and Group 2
xxx = 200 205 210 215 220 225 230 235 240 245 250
Maximum Power at
STC (Pmax, Wp) 200 205 210 215 220 225 230 235 240 245 250
Maximum Power
Voltage (Vmp, V) 28.2 28.4 28.6 28.8 29.0 29.2 29.4 29.6 29.8 30.1 30.5
Maximum Power
Current (Imp, A) 7.09 7.22 7.34 7.47 7.59 7.71 7.82 7.94 8.06 8.14 8.20
Open-circuit
Voltage(Voc, V) 35.3 35.5 35.8 36.1 36.3 36.6 36.8 37.0 37.3 37.5 37.7
Short-circuit
Current (Isc, A) 8.09 8.18 8.25 8.31 8.41 8.48 8.56 8.65 8.71 8.76 8.85
Rev. C
- 19 -
Short-circuit Current
(Isc, A) 8.92 8.98 9.03 9.09 9.15 9.20 9.26 9.32 9.37 9.43 9.49 9.59
Maximum system
Voltage 1000VDC/1500VDC
Dimensions
Normal PV module :1650x992x40mm (64.97×39.05 x1.57 inch)
Large cell PV module :1665x1002x40mm (65.55×39.45 x1.57 inch)
Half-cut PV module:1665x992x40mm (65.55×39.05 x1.57 inch)
Large cell Half-cut PV module :1684x1002x40mm (66.30×39.45 x1.57 inch)
Large cell PV module :1665x1002x35mm (65.55×39.45 x1.38 inch)
Normal PV module :1650x992x35mm (64.97×39.05 x1.38 inch)
Half-cut PV module:1665x992x35mm (65.55×39.05 x1.38 inch)
Large cell Half-cut PV module :1684x1002x35mm (66.30×39.45 x1.38 inch)
Maximum series
overcurrent protective
device rating
20A
Module Type Group 3
xxx = 200 205 210 215 220 225 230 235
Maximum Power at
STC (Pmax, Wp) 200 205 210 215 220 225 230 235
Maximum Power
Voltage (Vmp, V) 26.8 27.0 27.2 27.4 27.6 27.2 27.9 28.1
Maximum Power
Current (Imp, A) 7.46 7.60 7.73 7.86 7.98 8.12 8.23 8.36
Open-circuit
Voltage(Voc, V) 33.5 33.7 34.0 34.3 34.5 34.8 35.0 35.2
Short-circuit
Current (Isc, A) 8.53 8.61 8.68 8.75 8.85 8.92 9.01 9.10
Module Type Group 3
xxx= 240 245 250 255 260 265 270 275
Maximum Power at
STC (Pmax, Wp) 240 245 250 255 260 265 270 275
Maximum Power
Voltage (Vmp, V) 28.3 28.6 29.0 29.3 29.5 29.8 30.1 30.5
Maximum Power
Current (Imp, A) 8.48 8.57 8.63 8.72 8.81 8.88 8.97 9.06
Open-circuit
Voltage (Voc, V) 35.4 35.6 35.8 36.1 36.2 36.7 36.9 37.2
- 20 -
Short-circuit
Current (Isc, A) 9.17 9.23 9.32 9.39 9.45 9.51 9.57 9.58
Maximum system Voltage 1000VDC
Dimensions
Normal PV module :1650x992x40mm (64.97×39.05 x1.57 inch)
Large cell PV module :1665x1002x40mm (65.55×39.45 x1.57 inch)
Large cell PV module :1665x1002x35mm (65.55×39.45 x1.38 inch)
Normal PV module :1650x992x35mm (64.97×39.05 x1.38 inch)
Maximum series overcurrent
protective device rating 15A
Module Type Group 4 and Group 5
xxx = 250 255 260 265 270 275 280 285 290 295 300 305
Maximum Power at
STC (Pmax, Wp) 250 255 260 265 270 275 280 285 290 295 300 305
Maximum Power
Voltage (Vmp, V) 34.2 34.5 34.7 34.9 35.0 35.2 35.3 35.5 35.8 36.2 36.6 36.8
Maximum Power
Current (Imp, A) 7.31 7.39 7.49 7.59 7.71 7.81 7.93 8.03 8.11 8.15 8.20 8.30
Open-circuit
Voltage(Voc, V) 43.5 43.7 43.9 44.1 44.2 44.4 44.5 44.7 44.9 45.1 45.3 45.6
Short-circuit
Current (Isc, A) 8.05 8.18 8.26 8.33 8.43 8.49 8.58 8.61 8.69 8.76 8.84 8.91
Module Type Group 4 and Group 5 Group 5
xxx = 310 315 320 325 330 335 340 345 350 355 360 365 370
Maximum Power at
STC (Pmax, Wp) 310 315 320 325 330 335 340 345 350 355 360 365 370
Maximum Power
Voltage (Vmp, V) 37.0 37.2 37.4 37.6 37.8 38 38.2 38.4 38.6 38.9 39.1 39.3 39.5
Maximum Power
Current (Imp, A) 8.38 8.48 8.56 8.66 8.74 8.82 8.9 8.98 9.07 9.12 9.21 9.29 9.37
Open-circuit Voltage
(Voc, V) 45.9 46.2 46.4 46.7 46.9 47.2 47.5 47.8 48 48.2 48.5 48.8 49.1
Short-circuit Current
(Isc, A) 8.96 9.01 9.05 9.1 9.14 9.18 9.22 9.29 9.36 9.43 9.51 9.58 9.63
Maximum system
Voltage 1000VDC/1500VDC
Rev. C
- 21 -
Dimensions
Normal PV module :1956x992x40mm (77.01×39.05 x1.57 inch)
Large cell PV module :1979x1002x40mm (77.91×39.45 x1.57 inch)
Half-cut PV module:1987x992x40mm (78.23×39.05 x1.57 inch)
Large cell Half-cut PV module :2008x1002x40mm (79.06×39.45 x1.57 inch)
Half-cut PV module:2000x992x40mm (78.74×39.05 x1.57 inch)
Maximum series
overcurrent
protective device
rating
20A
Module Type Group 6
xxx = 250 255 260 265 270 275 280 285
Maximum Power at
STC(Pmax, Wp) 250 255 260 265 270 275 280 285
Maximum Power
Voltage (Vmp, V) 32.5 32.8 33.0 33.2 33.3 33.4 33.5 33.7
Maximum Power
Current (Imp, A) 7.69 7.78 7.88 7.99 8.12 8.22 8.35 8.45
Open-circuit
Voltage (Voc, V) 41.3 41.5 41.7 41.9 42.0 42.2 42.3 42.5
Short-circuit
Current (Isc, A) 8.52 8.61 8.70 8.77 8.87 8.94 9.03 9.06
Module Type Group 6
xxx= 290 295 300 305 310 315 320 325 330
Maximum Power at
STC (Pmax, Wp) 290 295 300 305 310 315 320 325 330
Maximum Power
Voltage(Vmp, V) 34.0 34.4 34.8 34.9 35.2 35.3 35.5 35.7 35.9
Maximum Power
Current (Imp, A) 8.54 8.58 8.63 8.74 8.82 8.93 9.01 9.12 9.20
Open-circuit
Voltage (Voc, V) 42.7 42.8 43.0 43.3 43.6 43.9 44.1 44.5 44.7
Short-circuit
Current (Isc, A) 9.15 9.22 9.31 9.38 9.43 9.48 9.53 9.55 9.57
Maximum
system Voltage 1000VDC
Dimensions Normal PV module :1956x992x40mm (77.01×39.05 x1.57 inch)
- 22 -
Large cell PV module :1979x1002x40mm (77.91×39.45 x1.57 inch)
Maximum series
overcurrent protective
device rating
15A
Module Type Group 9
xxx = 200 205 210 215 220 225 230 235 240 245
Maximum Power at
STC (Pmax, Wp) 200 205 210 215 220 225 230 235 240 245
Maximum Power
Voltage (Vmp, V) 28.2 28.4 28.6 28.8 29.0 29.2 29.4 29.6 29.8 30.1
Maximum Power
Current (Imp, A) 7.09 7.22 7.34 7.47 7.59 7.71 7.82 7.94 8.06 8.14
Open-circuit
Voltage (Voc, V) 35.3 35.5 35.8 36.1 36.3 36.6 36.8 37.0 37.3 37.5
Short-circuit
Current (Isc, A) 8.09 8.18 8.25 8.31 8.41 8.48 8.56 8.65 8.71 8.76
Module Type Group 9
xxx= 250 255 260 265 270 275 280 285 290 295
Maximum Power at
STC (Pmax, Wp) 250 255 260 265 270 275 280 285 290 295
Maximum Power
Voltage(Vmp, V) 30.5 30.8 30.9 31.2 31.4 31.6 31.8 32.0 32.2 32.4
Maximum Power
Current (Imp, A) 8.20 8.28 8.42 8.50 8.60 8.70 8.81 8.90 9.02 9.10
Open-circuit
Voltage (Voc, V) 37.7 37.9 38.0 38.2 38.4 38.5 38.6 38.7 39.5 39.7
Short-circuit
Current (Isc, A) 8.85 8.92 9.10 9.19 9.28 9.40 9.49 9.51 9.55 9.61
Maximum
system Voltage 1000VDC
Dimensions
Normal PV module :1650x992x40mm (64.97×39.05 x1.57 inch)
Large cell PV module :1665x1002x40mm (65.55×39.45 x1.57 inch)
Large cell PV module :1665x1002x35mm (65.55×39.45 x1.38 inch)
Normal PV module :1650x992x35mm (64.97×39.05 x1.38 inch)
Maximum series
overcurrent protective 15A
Rev. C
- 23 -
device rating
Module Type Group 7 and Group 8
xxx = 200 205 210 215 220 225 230 235 240 245
Maximum Power at
STC (Pmax, Wp) 200 205 210 215 220 225 230 235 240 245
Maximum Power
Voltage (Vmp, V) 28.2 28.4 28.6 28.8 29.0 29.2 29.4 29.6 29.8 30.1
Maximum Power
Current(Imp, A) 7.09 7.22 7.34 7.47 7.59 7.71 7.82 7.94 8.06 8.14
Open-circuit
Voltage (Voc, V) 35.3 35.5 35.8 36.1 36.3 36.6 36.8 37.0 37.3 37.5
Short-circuit
Current (Isc, A) 8.09 8.18 8.25 8.31 8.41 8.48 8.56 8.65 8.71 8.76
Module Type Group 7 and Group 8
xxx= 250 255 260 265 270 275 280 285 290 295
Maximum Power at
STC (Pmax, Wp) 250 255 260 265 270 275 280 285 290 295
Maximum Power
Voltage (Vmp, V) 30.5 30.8 30.9 31.2 31.4 31.6 31.8 32.0 32.2 32.4
Maximum Power
Current (Imp, A) 8.20 8.28 8.42 8.50 8.60 8.70 8.81 8.90 9.02 9.10
Open-circuit
Voltage (Voc, V) 37.7 38.0 37.9 38.2 38.4 38.5 38.6 38.7 39.5 39.7
Short-circuit
Current (Isc, A) 8.85 8.96 9.10 9.19 9.28 9.40 9.49 9.51 9.55 9.61
Module Type Group 7 and Group 8 Group 8
xxx = 300 305 310 315 320 325 330 335 340
Maximum Power at
STC(Pmax, Wp) 300 305 310 315 320 325 330 335 340
Maximum Power
Voltage (Vmp, V) 32.6 32.8 33.0 33.2 33.4 33.6 33.8 34.0 34.2
Maximum Power
Current (Imp, A) 9.21 9.30 9.4 9.49 9.59 9.68 9.77 9.87 9.96
Open-circuit
Voltage (Voc, V) 40.1 40.3 40.5 40.7 40.9 41.1 41.3 41.5 41.7
Short-circuit
Current (Isc, A) 9.72 9.83 9.92 10.04 10.15 10.2 10.31 10.36 10.55
- 24 -
Maximum system
Voltage 1000VDC/1500VDC
Dimensions
Normal PV module :1650x992x40mm (64.97×39.05 x1.57 inch)
Half-cut PV module:1665x992x40mm (65.55×39.05 x1.57 inch)
Large cell PV module :1665x1002x35mm (65.55×39.45 x1.38 inch)
Normal PV module :1650x992x35mm (64.97×39.05 x1.38 inch)
Half-cut PV module:1665x992x35mm (65.55×39.05 x1.38 inch)
Large cell Half-cut PV module :1684x1002x35mm (66.30×39.45 x1.38 inch)
Maximum series
overcurrent
protective
device rating
20A
Module Type Group 10 and Group 11
xxx = 250 255 260 265 270 275 280 285 290 295 300 305 310
Maximum Power at
STC (Pmax, Wp) 250 255 260 265 270 275 280 285 290 295 300 305 310
Maximum Power
Voltage (Vmp, V) 34.8 35.0 35.3 35.6 35.9 36.1 36.3 36.5 36.7 36.8 37.0 37.2 37.4
Maximum Power
Current (Imp, A) 7.18 7.29 7.37 7.44 7.52 7.62 7.71 7.81 7.90 8.02 8.11 8.20 8.29
Open-circuit
Voltage (Voc, V) 43.4 43.6 43.9 44.1 44.4 44.6 44.8 45.0 45.2 45.3 45.5 45.7 45.9
Short-circuit
Current (Isc, A) 7.84 7.92 7.99 8.07 8.15 8.23 8.32 8.40 8.47 8.55 8.64 8.72 8.80
Module Type Group 10 and Group 11
xxx = 315 320 325 330 335 340 345 350 355 360 365 370
Maximum Power at
STC (Pmax, Wp) 315 320 325 330 335 340 345 350 355 360 365 370
Maximum Power
Voltage (Vmp, V) 37.6 37.8 38.0 38.2 38.4 38.7 38.9 39.1 39.3 39.5 39.7 39.9
Maximum Power
Current (Imp, A) 8.38 8.47 8.55 8.64 8.72 8.79 8.87 8.94 9.04 9.12 9.20 9.28
Open-circuit
Voltage (Voc, V) 46.1 46.3 46.5 46.7 46.9 47.1 47.3 47.5 47.8 48.0 48.2 48.5
Short-circuit
Current (Isc, A) 8.87 8.95 9.03 9.11 9.18 9.24 9.31 9.38 9.45 9.51 9.57 9.61
Rev. C
- 25 -
Module Type Group 10 and Group 11 Group 11
xxx = 375 380 385 390 395 400 405 410
Maximum Power at
STC (Pmax, Wp) 375 380 385 390 395 400 405 410
Maximum Power
Voltage (Vmp, V) 40.2 40.5 40.8 41.1 41.4 41.7 42.0 42.3
Maximum Power
Current (Imp, A) 9.33 9.39 9.44 9.49 9.55 9.6 9.65 9.69
Open-circuit
Voltage (Voc, V) 48.7 48.9 49.1 49.3 49.5 49.8 50.1 50.4
Short-circuit
Current (Isc, A) 9.68 9.75 9.92 10.12 10.23 10.36 10.48 10.60
Maximum
system Voltage 1000VDC/1500VDC
Dimensions
Normal PV module :1956x992x40mm (77.01×39.05 x1.57 inch)
Large cell PV module :1979x1002x40mm (77.91×39.45 x1.57 inch)
Half-cut PV module:1987x992x40mm (78.23×39.05 x1.57 inch)
Large cell Half-cut PV module :2008x1002x40mm (79.06×39.45 x1.57 inch)
Half-cut PV module:2000x992x40mm (78.74×39.05 x1.57 inch)
Maximum series
overcurrent
protective
device rating
20A
Module Type Group 12
xxx = 250 255 260 265 270 275 280 285 290 295 300 305
Maximum Power at
STC (Pmax, Wp) 250 255 260 265 270 275 280 285 290 295 300 305
Maximum Power
Voltage (Vmp, V) 34.8 35.0 35.3 35.6 35.9 36.1 36.3 36.5 36.7 36.8 37.0 37.2
Maximum Power
Current (Imp, A) 7.18 7.29 7.37 7.44 7.52 7.62 7.71 7.81 7.90 8.02 8.11 8.20
Open-circuit
Voltage (Voc, V) 43.4 43.6 43.9 44.1 44.4 44.6 44.8 45.0 45.2 45.3 45.5 45.7
Short-circuit
Current (Isc, A) 7.84 7.92 7.99 8.07 8.15 8.23 8.32 8.40 8.47 8.55 8.64 8.72
- 26 -
Module Type Group 13
xxx = 375 380 385 390 395 400 405 410 415 420
Maximum Power at
STC (Pmax, Wp) 375 380 385 390 395 400 405 410 415 420
Maximum Power
Voltage (Vmp, V) 39.25 39.36 39.50 39.62 39.83 40.01 40.19 40.38 40.50 40.65
Maximum Power
Current (Imp, A) 9.56 9.66 9.76 9.84 9.92 10.00 10.08 10.16 10.25 10.33
Open-circuit Voltage
(Voc, V) 47.92 47.96 48.10 48.14 48.26 48.35 48.45 48.56 48.64 48.74
Short-circuit Current
(Isc, A) 9.92 10.02 10.08 10.17 10.23 10.32 10.42 10.51 10.61 10.70
Module Type Group 13
xxx = 375 380 385 390 395 400 405 410 415 420
Maximum Power at
BSTC (Pmax, Wp) 410 415 420 425 430 435 440 445 450 455
Module Type Group 12
xxx= 310 315 320 325 330 335 340 345 350 355
Maximum Power at
STC (Pmax, Wp) 310 315 320 325 330 335 340 345 350 355
Maximum Power
Voltage(Vmp, V) 37.4 37.6 37.8 38.0 38.2 38.4 38.7 38.9 39.1 39.3
Maximum Power
Current (Imp, A) 8.29 8.38 8.47 8.55 8.64 8.72 8.79 8.87 8.94 9.04
Open-circuit
Voltage(Voc, V) 45.9 46.1 46.3 46.5 46.7 46.9 47.1 47.3 47.5 47.8
Short-circuit
Current (Isc, A) 8.80 8.87 8.95 9.03 9.11 9.18 9.24 9.31 9.38 9.45
Maximum system
Voltage 1000VDC
Dimensions Normal PV module :1956x992x40mm (77.01×39.05 x1.57 inch)
Large cell PV module :1979x1002x40mm (77.91×39.45 x1.57 inch)
Maximum series
overcurrent
protective device
rating
15A
Rev. C
- 27 -
Maximum Power
Voltage(Vmp, V) 39.25 39.36 39.50 39.62 39.83 40.01 40.19 40.38 40.50 40.65
Maximum Power
Current (Imp, A) 10.46 10.57 10.68 10.77 10.86 10.94 11.03 11.11 11.22 11.31
Open-circuit
Voltage(Voc, V) 47.92 47.96 48.10 48.14 48.26 48.35 48.45 48.56 48.64 48.74
Short-circuit Current
(Isc, A) 10.86 10.97 11.03 11.13 11.20 11.30 11.40 11.51 11.61 11.71
Maximum system
Voltage 1500VDC
Dimensions 2031*1008*40 (79.96*39.69*1.57 inch)
Maximum series
overcurrent
protective device
rating
25A
Bifaciality Coefficient
φIsc=[Isc(back)]/[Isc(front)]= 0.71
φVoc=[Voc(back)]/[Voc(front)]= 0.98
φPmmp=[Pmmp(back)]/[Pmmp(front)]= 0.70
Module Type Group 14
xxx = 315 320 325 330 335 340 345 350
Maximum Power at STC (Pmax, Wp) 315 320 325 330 335 340 345 350
Maximum Power Voltage (Vmp, V) 32.7 32.9 33.1 33.24 33.40 33.62 33.76 33.94
Maximum Power Current (Imp, A) 9.63 9.73 9.82 9.93 10.03 10.11 10.22 10.31
Open-circui Voltage (Voc, V) 39.9 40.1 40.3 40.39 40.46 40.60 40.75 40.87
Short-circuitCurrent (Isc, A) 9.99 10.07 10.15 10.25 10.34 10.43 10.53 10.62
Module Type Group 14
xxx = 315 320 325 330 335 340 345 350
Maximum Power at BSTC (Pmax, Wp) 345 350 355 360 365 370 375 380
Maximum Power Voltage(Vmp, V) 32.7 32.9 33.10 33.24 33.40 33.62 33.76 33.94
Maximum Power Current (Imp, A) 10.54 10.65 10.75 10.87 10.98 11.07 11.18 11.29
Open-circuit Voltage(Voc, V) 39.9 40.1 40.30 40.39 40.46 40.60 40.75 40.87
Short-circuit Current (Isc, A) 10.93 11.02 11.11 11.22 11.32 11.42 11.52 11.62
Maximum system Voltage 1500VDC
- 28 -
Dimensions 1704*1008*35 (67.09*39.69*1.38 inch)
Maximum series overcurrent
protective device rating 25A
Bifaciality Coefficient
φIsc=[Isc(back)]/[Isc(front)]= 0.71
φVoc=[Voc(back)]/[Voc(front)]= 0.98
φPmmp=[Pmmp(back)]/[Pmmp(front)]= 0.70
Module Type Group 15
xxx = 375 380 385 390 395 400
Maximum Power at STC (Pmax, Wp) 375 380 385 390 395 400
Maximum PowerVoltage (Vmp, V) 39.32 39.43 39.53 39.64 39.74 39.85
Maximum PowerCurrent (Imp, A) 9.54 9.64 9.74 9.84 9.94 10.04
Open-circuitVoltage (Voc, V) 48.10 48.20 48.31 48.40 48.50 48.63
Short-circuitCurrent (Isc, A) 10.07 10.17 10.26 10.36 10.45 10.54
Module Type Group 15
xxx = 375 380 385 390 395 400
Maximum Power at BSTC (Pmax, Wp) 420 425 430 435 440 445
Maximum Power Voltage(Vmp, V) 39.32 39.43 39.53 39.64 39.74 39.85
Maximum Power Current (Imp, A) 10.67 10.79 10.90 11.01 11.12 11.23
Open-circuit Voltage(Voc, V) 48.10 48.20 48.31 48.40 48.50 48.63
Short-circuit Current (Isc, A) 11.27 11.38 11.48 11.59 11.69 11.79
Maximum system Voltage 1500VDC
Dimensions 2031*1008*40 (79.96*39.69*1.57 inch)
Maximum series overcurrent protective
device rating 25A
Bifaciality Coefficient
φIsc=[Isc(back)]/[Isc(front)]= 0.89
φVoc=[Voc(back)]/[Voc(front)]= 0.99
φPmmp=[Pmmp(back)]/[Pmmp(front)]= 0.88
Module Type Group 16
xxx = 315 320 325 330
Maximum Power at STC (Pmax, Wp) 315 320 325 330
Rev. C
- 29 -
Maximum Power Voltage (Vmp, V) 33.00 33.17 33.38 33.51
Maximum Power Current (Imp, A) 9.55 9.65 9.74 9.85
Open-circuit Voltage (Voc, V) 40.19 40.32 40.43 40.56
Short-circuit Current (Isc, A) 10.12 10.23 10.32 10.43
Module Type Group 16
xxx = 315 320 325 330
Maximum Power at BSTC (Pmax, Wp) 350 355 360 365
Maximum Power Voltage(Vmp, V) 33.00 33.17 33.38 33.51
Maximum Power Current (Imp, A) 10.68 10.80 10.90 11.02
Open-circuit Voltage(Voc, V) 40.19 40.32 40.43 40.56
Short-circuit Current (Isc, A) 11.32 11.45 1155 11.67
Maximum system Voltage 1500VDC
Dimensions 1704*1008*35 (67.09*39.69*1.38 inch)
Maximum series overcurrent protective
device rating 25A
Bifaciality Coefficient
φIsc=[Isc(back)]/[Isc(front)]= 0.89
φVoc=[Voc(back)]/[Voc(front)]= 0.99
φPmmp=[Pmmp(back)]/[Pmmp(front)]= 0.88
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Note
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Rev. C
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7. Contact us
Jinko Solar Co., Ltd. (Shanghai Office)
Jinko Building, #99 Shouyang Road, Jingan District, Shanghai, China
Postcode: 200127
Tel :(86)-21-51838777
Fax :(86)-21-51808600
Jinko Solar Co., Ltd. (Jiangxi Manufacture base)
No.1 Jinko Road, Shangrao Economic Development Zone, Jiangxi Province,
China
Postcode: 334100
Tel:(86)-793-8588188
Fax:(86)-793-8461152
Jinko solar Import and Export co., LTD
Xuri District, Shangrao Economic Development Zone, Jiangxi Province, China
Postcode: 334100
Tel: +86-793-8618987
Fax: +86-793-8461152
Customer Service:[email protected]
JinkoSolar(U.S) Inc.
595 Market Street, Suite 2200,
San Francisco, CA 94105
Tel: +(415) 402 0502
Fax: +(415) 402 0703
Jinko Solar Canada Co., Ltd.
Suite 703, 100 Allsate Parkway, Markham,ON Canada L3R 6H3
Tel:+1 905 604 2527
Fax: +1 905 604 2687
www.jinkosolar.com | Technic Support: [email protected] | After-sales: [email protected]
Global Sales & Marketing CenterNo.1 Jinko Road,Shangrao Economic Development Zone, Jiangxi Province, China 334100Tel:+86 793 858 8188 Fax:+86 793 846 1152
Jiangxi Manufacture BaseNo.58 Yuanxi Road, Haining Yuanhua Industrial Park, Zhejiang Province, China 314416Tel: +86 573 8798 5678Fax: +86 573 8787 1070
Zhejiang Manufacture Base
Jinko Building #99 Shouyang Road, Jingan District,Shanghai, China 200027Tel: +86 21 5183 8777Fax: +86 21 5180 8600